Comprehensive Infrastructure & Modular Solutions for Data Centers

Delivering end-to-end reliability, scalability, and performance across Southeast Asia & Europe

At Hyperscale DCS, we provide the critical infrastructure that powers mission-critical environments. From consulting and engineering to modular prefabricated systems, our solutions are designed to scale with your growth while reducing costs and maximizing uptime.

Support for your entire data center lifecycle

From initial assessment through long-term maintenance. Every service is delivered with precision, responsiveness, and reliability.

Requirements Assessment & Consulting

Site evaluation infrastructure analysis and falter solution strategies

Product Selection & Configuration

Guidance on technologies and components designed to scale with your growth

Engineering & Integration

Custom fitted electrical solutions seamlessly integrated with your facility utilities

Installation & Commissioning

End-to-end deployment of factory tested systems for faster & safer enablement

Post-Sales Support & Maintenance

Preventive maintenance, rapid emergency response and on-site technical expertise

Speak to our data center experts

Modular Prefabricated Products

Our prefabricated solutions are factory-built, tested, and delivered for rapid deployment. Scalable and efficient, they meet the demands of hyperscale and AI-driven facilities while reducing CAPEX, OPEX, and environmental impact.

Scalable from 2MW to 10MW – Optimized for Hyperscale and AI-driven Data Centers

Prefabricated Power Train Unit (PTU) Skid Solutions

The Prefabricated PTU Skid Module is a fully engineered, pre-assembled power distribution solution designed to deliver high-reliability power to data center infrastructure.

Each PTU Skid Module is a factory-tested, containerized system housing key electrical components such as transformers, switchgear, UPS (Uninterruptible Power Supply), power distribution units (PDUs), and associated controls. Designed for plug-and-play deployment, these skids minimize site work, shorten construction timelines, and ensure high performance and resilience.

Use case applications

Hyperscale Data Centers
AI/ML Infrastructure
Cloud and Edge Computing Sites
Disaster Recovery and Backup Facilities
Rapid Deployment for Expanding Facilities

Scalability & configuration

2MW Module: Ideal for edge data centers or smaller AI clusters
4MW to 6MW: Suitable for medium-sized facilities with redundancy
10MW Deployment: Achieved by connecting multiple 2MW PTU Skids in parallel, forming a modular block-redundant configuration

Each unit supports N+1 or 2N redundancy, ensuring uninterrupted power delivery and seamless failover.

Key components

Medium Voltage Transformer (e.g., 2500kVA)
UPS Systems (e.g., 800kW – 1200kW each)
Switchgear & MCC Panels
Power Distribution Units
Integrated Cooling and Monitoring Systems
Optional: Connection to hydrogen fuel cells or diesel gensets

Advantages of PTU Skid Module

Rapid Deployment

Factory-built and pre-tested, reducing on-site labor, installation time, and potential construction delays.
Significantly cuts deployment time compared to traditional on-site construction.

Modular Scalability

Enables incremental expansion of power infrastructure—start with 2MW and scale up as needed.
Supports modular data center growth models and flexible site planning.

Space-Efficient Design

Compact footprint with integrated systems minimizes land use and maximizes white space allocation in the data hall.

Improved Reliability

Factory QA/QC tested under controlled conditions, ensuring high performance.
Integrated design minimizes risk of cabling errors or component mismatches during installation.

High Redundancy and Flexibility

Supports block-redundant (e.g., 1,430kW per block) or fully redundant designs (N+1, 2N).
Compatible with alternative power sources such as hydrogen fuel cells or diesel gensets for clean backup options.

Reduced CAPEX and OPEX

Streamlined construction and reduced labor lower capital expenses.
Integrated monitoring and optimized load management improve operational efficiency over time.

Ease of Maintenance

Each skid is self-contained and easily serviceable without disrupting adjacent units.
Modular architecture allows for isolated maintenance without affecting overall system uptime.

Rapid-Deployment Cooling – Scalable for AI & High-Density Data Centers

Prefabricated Containerized Magnetic Levitation Chiller Solutions

The Prefabricated Containerized Chiller Plant is a modular, factory-assembled cooling system designed specifically for data center applications. Engineered for high thermal loads from modern IT equipment—particularly AI and high-density workloads—it offers a reliable, efficient, and scalable cooling solution that integrates seamlessly with both air and liquid-based systems.

This chiller plant typically houses all necessary components in a containerized enclosure that can be rapidly deployed and connected on-site. Designed to support water-cooled or hybrid cooling architectures, it ensures precise temperature regulation and energy efficiency while minimizing installation time and complexity.

Use case applications

Hyperscale and AI-focused data centers
Rapid-deployment modular or prefabricated data centers
High-density colocation or enterprise server farms
Upgrades and expansions of legacy cooling systems

This chiller solution aligns with next-generation data center requirements—supporting liquid cooling, high-power-density IT racks, and green energy integration. It offers unmatched deployment speed and flexibility while lowering TCO (Total Cost of Ownership).

Scalability & Configuration

Designed to connect directly with liquid cooling systems, fan wall coil systems, or cooling distribution units (CDUs) in the data center.
Works in closed-loop systems with cooling towers or hybrid coil heat exchangers for greater cooling flexibility.
Supports full mechanical cooling, hybrid, or free cooling modes depending on ambient temperature and load.

Key components

Magnetic Levitation (MagLev) Water-Cooled Chillers
Integrated Piping System (chilled water and condenser water lines)
High-efficiency Pumps (primary and secondary circuits)
Valves, Flow Meters, and Control Sensors
Motor Control Center (MCC) Panel
Structural Container (weatherproof, insulated, vibration-resistant)

Advantages of Containerized Chiller Plant

Rapid Deployment

Completely factory-built and pre-tested, reducing site preparation and installation time.
Ideal for fast-track data center projects or phased deployments.

Scalable Cooling Capacity

Units can be modularly deployed, scaling from a few hundred RTs to multiple thousands as cooling demand grows.
Easily integrates with additional chiller modules to increase redundancy or capacity.

Energy Efficiency

Equipped with MagLev compressor technology, offering variable-speed operation for optimized energy use.
Supports free cooling and hybrid modes to minimize mechanical cooling energy consumption.

Compact and Space-Saving

Containerized design fits within tight site constraints.
Frees up valuable building space for white room or IT infrastructure.

Reduced On-Site Risk

All components are assembled, tested, and quality-assured in a controlled environment.
Minimizes on-site integration errors and avoids complex mechanical room builds.

Lower Operational & Maintenance Costs

Simplified layout makes servicing and component replacement straightforward.
Centralized MCC panel with automation and monitoring systems reduces labor time and troubleshooting complexity.

Resiliency and Redundancy

Designed for N+1 or 2N configurations by deploying multiple independent containers.
Supports chilled water loop redundancy and backup power integration.

High Efficiency Direct On Chip Liquid Cooling – supporting nVidia GB200 Applications

Prefabricated Liquid Cooling System

The Prefabricated Liquid Cooling System is a modular, factory-built solution engineered to meet the demanding thermal requirements of modern data centers—especially those running AI, GPU-intensive workloads, and high-density server racks. By directly absorbing heat from the source (chip, board, or rack), liquid cooling offers far greater efficiency than traditional air cooling, enabling higher rack densities and improved performance per watt.

This system is delivered in a ready-to-deploy prefab module, containing all essential infrastructure components for secondary liquid cooling distribution and integration with primary chiller or CDU systems.

Use case applications

AI/ML Training Clusters
Hyperscale Data Centers
HPC (High-Performance Computing)
Edge Data Centers with space/power constraints
Retrofitting air-cooled data centers to hybrid cooling

Scalability & configuration

Can support from a single rack (tens of kW) to entire data halls (multi-MW scale).
Easily scaled by adding CDUs or prefab cooling modules in parallel.
Compatible with OCP-compliant and custom-built liquid-cooled server architectures.

Key components

Coolant Distribution Units (CDUs)
Pumps and Heat Exchangers (plate or brazed plate type)
Supply/Return Piping (stainless steel with rigid coupling)
Energy Valve Control Systems
Integrated Monitoring ad Alarms
Optional Redundant Pumps/Power Modules

Advantages of Liquid Cooling System

High Cooling Efficiency

Direct contact cooling (e.g., direct-to-chip or rear-door heat exchangers) removes heat at the source, preventing heat buildup.
Reduces or eliminates the need for high-power air handling systems.

Supports High-Density Racks

Enables rack densities of 30kW to 100kW+, far beyond the limits of air cooling.
Essential for AI/ML workloads, HPC, and other power-intensive applications.

Prefabricated for Rapid Deployment

Factory-integrated modules arrive tested and ready for connection.
Minimizes construction time, site disruption, and installation complexity.

Energy and Water Efficiency

Operates on closed-loop cooling systems, using minimal water and delivering lower PUE (Power Usage Effectiveness).
Compatible with free cooling, reducing reliance on mechanical chillers during cooler seasons.

Modular and Scalable Architecture

Add cooling capacity as IT load grows without redesigning infrastructure.
Each CDU or liquid cooling module is independent and hot-swappable in many designs.

Precision Thermal Control

Advanced control valves and flow sensors maintain exact temperature and pressure profiles.
Reduces thermal hotspots and protects sensitive components.

Reduced Noise and Improved Layout

Less reliance on fans means quieter operation.
More efficient airflow management in the data hall.

Zero-Emission Backup Power – Modular Units from 250kW to 10MW+

Prefabricated Hydrogen Fuel Cell System

The Prefabricated Hydrogen Fuel Cell System is a modular, containerized power solution designed to provide clean, reliable, and scalable energy for data centers. As an alternative to traditional diesel generators, hydrogen fuel cells offer zero-emission backup or primary power, helping data center operators meet sustainability, uptime, and energy independence goals.

These systems convert hydrogen fuel into electricity through an electrochemical process, with only water and heat as by-products, making them ideal for green data centers and ESG-focused infrastructure.

How it works in a Data Center

Functions as a primary power source, standby backup, or supplementary load-shaving system.
Can operate in islanded (off-grid) or grid-parallel modes.
Works in conjunction with battery storage systems or UPS to provide seamless, uninterruptible power.

Use case applications

Hyperscale and colocation data centers aiming for carbon neutrality
Remote or off-grid data center locations
Regions with diesel generator restrictions or clean energy mandates
Tier IV facilities needing ultra-reliable, sustainable backup systems

Key components of Hydrogen Fuel Cell

Medium Voltage Transformer (e.g., 2500kVA)
UPS Systems (e.g., 800kW – 1200kW each)
Switchgear & MCC Panels
Power Distribution Units
Integrated Cooling and Monitoring Systems
Optional: Connection to hydrogen fuel cells or diesel gensets

Advantages of Hydrogen Fuel Cell System

Zero Emissions and Sustainability

Produces no CO₂, NOₓ, or particulate emissions—only water vapor.
Enables operators to achieve carbon neutrality or net-zero targets.
Eligible for green tax incentives, carbon credits, or ESG compliance certifications.

Scalable, Modular Design

Prefabricated units allow fast deployment and easy expansion.
Scales incrementally with data center load, avoiding overbuild and reducing capex.

Silent Operation

Unlike diesel generators, fuel cells operate quietly with minimal vibration—ideal for urban data centers or noise-sensitive zones.

High Efficiency

Electrochemical conversion offers higher efficiency than combustion-based generation, especially when configured for combined heat and power (CHP).

Resilient and Reliable

Provides stable DC or AC power output with fast startup times and low maintenance needs.
No moving parts in the electrochemical process leads to high reliability and fewer mechanical failures.

Supports Long Duration Runtime

When paired with on-site or nearby hydrogen storage, fuel cells can operate for extended periods—ideal for long outages where diesel stockpiles would be impractical.

Reduced Fuel Logistics

Hydrogen can be sourced via pipelines, tanks, or produced on-site via electrolysis using renewable energy (green hydrogen), reducing reliance on fossil fuel delivery chains.

The Partner You Can Trust for Mission-Critical Infrastructure

With more than 40 years of combined expertise, we deliver data center infrastructure that puts reliability and cost efficiency first. From scalable prefabricated modules to end-to-end services, our team is committed to keeping your operations running 24/7—with sustainability built into every solution.